Abstract
Immune checkpoint blockade (ICB), including PD-1/PD-L1 inhibitors, has transformed cancer therapy but benefits only a subset of patients. Understanding how PD-L1 is regulated and identifying strategies to overcome resistance remain critical. Here, we identify SIRT2 as a key positive regulator of PD-L1 across multiple human cancers. Unexpectedly, SIRT2 does not act at the transcriptional level but stabilizes PD-L1 protein by preventing ubiquitin-mediated degradation. Mechanistically, SIRT2 maintains the protein stability of USP22, a PD-L1 deubiquitinase. Loss of SIRT2 reduces USP22 levels, whereas ectopic USP22 fully rescues PD-L1 expression and reverses the enhanced antitumor immunity induced by SIRT2 inhibition. We further show that SIRT2 directly deacetylates USP22 at lysines 382 and 505 within its catalytic domain, promoting USP22 deubiquitinase activity and protecting both itself and its substrates from degradation. Our findings reveal a molecular mechanism by which an acetylation–deacetylation switch dynamically regulates deubiquitinase catalytic activity. Therapeutically, SIRT2 inhibition synergizes with PD-1/PD-L1 blockade and USP22 inhibition to enhance antitumor immunity. Consistently, protein but not mRNA levels of SIRT2, USP22, and PD- L1 positively correlate in human bladder cancer and melanoma. Together, these findings define a SIRT2–USP22–PD-L1 axis driving tumor immune evasion and highlight SIRT2 as a promising target to improve ICB efficacy.
Authors
Na Li, Qiong Gao, Huijun Jia, Guoqing Xue, Yuanzhang Zhou, Shengnan Wang, Suxian Ma, Bingjin Hu, Zhuoyue Zhao, Chen Su, Yinghong Liu, Wenxuan Xi, Zhonghao Li, Donna D. Zhang, Peng Chu, Zhaolin Sun, Deyu Fang
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Copyright © 2026 American Society for Clinical Investigation
ISSN: 0021-9738 (print), 1558-8238 (online)